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f1471a367b35d1d1fa4fff374b771ecf2671fb34
android_external_libcxx/test/std/experimental/filesystem/fs.op.funcs/fs.op.copy/copy.pass.cpp
Eric Fiselier f1471a367b Make filesystem tests generic between experimental and std versions. 
As I move towards implementing std::filesystem, there is a need to
make the existing tests run against both the std and experimental versions.
Additionally, it's helpful to allow running the tests against other
implementations of filesystem.

This patch converts the test to easily target either. First, it
adds a filesystem_include.hpp header which is soley responsible
for selecting and including the correct implementation. Second,
it converts existing tests to use this header instead of including
filesystem directly.

git-svn-id: https://llvm.org/svn/llvm-project/libcxx/trunk@328475 91177308-0d34-0410-b5e6-96231b3b80d8
2018-03-26 05:46:57 +00:00

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//===----------------------------------------------------------------------===//
//
// The LLVM Compiler Infrastructure
//
// This file is dual licensed under the MIT and the University of Illinois Open
// Source Licenses. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
// UNSUPPORTED: c++98, c++03
// <experimental/filesystem>
// void copy(const path& from, const path& to);
// void copy(const path& from, const path& to, error_code& ec);
// void copy(const path& from, const path& to, copy_options options);
// void copy(const path& from, const path& to, copy_options options,
// error_code& ec);
#include "filesystem_include.hpp"
#include <type_traits>
#include <cstddef>
#include <cassert>
#include "test_macros.h"
#include "rapid-cxx-test.hpp"
#include "filesystem_test_helper.hpp"
using namespace fs;
using CO = fs::copy_options;
TEST_SUITE(filesystem_copy_test_suite)
TEST_CASE(signature_test)
{
const path p; ((void)p);
std::error_code ec; ((void)ec);
const copy_options opts{}; ((void)opts);
ASSERT_NOT_NOEXCEPT(fs::copy(p, p));
ASSERT_NOT_NOEXCEPT(fs::copy(p, p, ec));
ASSERT_NOT_NOEXCEPT(copy(p, p, opts));
ASSERT_NOT_NOEXCEPT(copy(p, p, opts, ec));
}
// There are 4 cases is the proposal for absolute path.
// Each scope tests one of the cases.
TEST_CASE(test_error_reporting)
{
auto checkThrow = [](path const& f, path const& t, const std::error_code& ec)
{
#ifndef TEST_HAS_NO_EXCEPTIONS
try {
fs::copy(f, t);
return false;
} catch (filesystem_error const& err) {
return err.path1() == f
&& err.path2() == t
&& err.code() == ec;
}
#else
((void)f); ((void)t); ((void)ec);
return true;
#endif
};
scoped_test_env env;
const path file = env.create_file("file1", 42);
const path dir = env.create_dir("dir");
const path fifo = env.create_fifo("fifo");
TEST_REQUIRE(is_other(fifo));
const auto test_ec = GetTestEC();
// !exists(f)
{
std::error_code ec = test_ec;
const path f = StaticEnv::DNE;
const path t = env.test_root;
fs::copy(f, t, ec);
TEST_REQUIRE(ec);
TEST_REQUIRE(ec != test_ec);
TEST_CHECK(checkThrow(f, t, ec));
}
{ // equivalent(f, t) == true
std::error_code ec = test_ec;
fs::copy(file, file, ec);
TEST_REQUIRE(ec);
TEST_REQUIRE(ec != test_ec);
TEST_CHECK(checkThrow(file, file, ec));
}
{ // is_directory(from) && is_file(to)
std::error_code ec = test_ec;
fs::copy(dir, file, ec);
TEST_REQUIRE(ec);
TEST_REQUIRE(ec != test_ec);
TEST_CHECK(checkThrow(dir, file, ec));
}
{ // is_other(from)
std::error_code ec = test_ec;
fs::copy(fifo, dir, ec);
TEST_REQUIRE(ec);
TEST_REQUIRE(ec != test_ec);
TEST_CHECK(checkThrow(fifo, dir, ec));
}
{ // is_other(to)
std::error_code ec = test_ec;
fs::copy(file, fifo, ec);
TEST_REQUIRE(ec);
TEST_REQUIRE(ec != test_ec);
TEST_CHECK(checkThrow(file, fifo, ec));
}
}
TEST_CASE(from_is_symlink)
{
scoped_test_env env;
const path file = env.create_file("file", 42);
const path symlink = env.create_symlink(file, "sym");
const path dne = env.make_env_path("dne");
{ // skip symlinks
std::error_code ec = GetTestEC();
fs::copy(symlink, dne, copy_options::skip_symlinks, ec);
TEST_CHECK(!ec);
TEST_CHECK(!exists(dne));
}
{
const path dest = env.make_env_path("dest");
std::error_code ec = GetTestEC();
fs::copy(symlink, dest, copy_options::copy_symlinks, ec);
TEST_CHECK(!ec);
TEST_CHECK(exists(dest));
TEST_CHECK(is_symlink(dest));
}
{ // copy symlink but target exists
std::error_code ec = GetTestEC();
fs::copy(symlink, file, copy_options::copy_symlinks, ec);
TEST_CHECK(ec);
TEST_CHECK(ec != GetTestEC());
}
{ // create symlinks but target exists
std::error_code ec = GetTestEC();
fs::copy(symlink, file, copy_options::create_symlinks, ec);
TEST_CHECK(ec);
TEST_CHECK(ec != GetTestEC());
}
}
TEST_CASE(from_is_regular_file)
{
scoped_test_env env;
const path file = env.create_file("file", 42);
const path dir = env.create_dir("dir");
{ // skip copy because of directory
const path dest = env.make_env_path("dest1");
std::error_code ec = GetTestEC();
fs::copy(file, dest, CO::directories_only, ec);
TEST_CHECK(!ec);
TEST_CHECK(!exists(dest));
}
{ // create symlink to file
const path dest = env.make_env_path("sym");
std::error_code ec = GetTestEC();
fs::copy(file, dest, CO::create_symlinks, ec);
TEST_CHECK(!ec);
TEST_CHECK(is_symlink(dest));
TEST_CHECK(equivalent(file, canonical(dest)));
}
{ // create hard link to file
const path dest = env.make_env_path("hardlink");
TEST_CHECK(hard_link_count(file) == 1);
std::error_code ec = GetTestEC();
fs::copy(file, dest, CO::create_hard_links, ec);
TEST_CHECK(!ec);
TEST_CHECK(exists(dest));
TEST_CHECK(hard_link_count(file) == 2);
}
{ // is_directory(t)
const path dest_dir = env.create_dir("dest_dir");
const path expect_dest = dest_dir / file.filename();
std::error_code ec = GetTestEC();
fs::copy(file, dest_dir, ec);
TEST_CHECK(!ec);
TEST_CHECK(is_regular_file(expect_dest));
}
{ // otherwise copy_file(from, to, ...)
const path dest = env.make_env_path("file_copy");
std::error_code ec = GetTestEC();
fs::copy(file, dest, ec);
TEST_CHECK(!ec);
TEST_CHECK(is_regular_file(dest));
}
}
TEST_CASE(from_is_directory)
{
struct FileInfo {
path filename;
std::size_t size;
};
const FileInfo files[] = {
{"file1", 0},
{"file2", 42},
{"file3", 300}
};
scoped_test_env env;
const path dir = env.create_dir("dir");
const path nested_dir_name = "dir2";
const path nested_dir = env.create_dir("dir/dir2");
for (auto& FI : files) {
env.create_file(dir / FI.filename, FI.size);
env.create_file(nested_dir / FI.filename, FI.size);
}
{ // test for non-existent directory
const path dest = env.make_env_path("dest_dir1");
std::error_code ec = GetTestEC();
fs::copy(dir, dest, ec);
TEST_REQUIRE(!ec);
TEST_CHECK(is_directory(dest));
for (auto& FI : files) {
path created = dest / FI.filename;
TEST_CHECK(is_regular_file(created));
TEST_CHECK(file_size(created) == FI.size);
}
TEST_CHECK(!is_directory(dest / nested_dir_name));
}
{ // test for existing directory
const path dest = env.create_dir("dest_dir2");
std::error_code ec = GetTestEC();
fs::copy(dir, dest, ec);
TEST_REQUIRE(!ec);
TEST_CHECK(is_directory(dest));
for (auto& FI : files) {
path created = dest / FI.filename;
TEST_CHECK(is_regular_file(created));
TEST_CHECK(file_size(created) == FI.size);
}
TEST_CHECK(!is_directory(dest / nested_dir_name));
}
{ // test recursive copy
const path dest = env.make_env_path("dest_dir3");
std::error_code ec = GetTestEC();
fs::copy(dir, dest, CO::recursive, ec);
TEST_REQUIRE(!ec);
TEST_CHECK(is_directory(dest));
const path nested_dest = dest / nested_dir_name;
TEST_REQUIRE(is_directory(nested_dest));
for (auto& FI : files) {
path created = dest / FI.filename;
path nested_created = nested_dest / FI.filename;
TEST_CHECK(is_regular_file(created));
TEST_CHECK(file_size(created) == FI.size);
TEST_CHECK(is_regular_file(nested_created));
TEST_CHECK(file_size(nested_created) == FI.size);
}
}
}
TEST_CASE(test_copy_symlinks_to_symlink_dir)
{
scoped_test_env env;
const path file1 = env.create_file("file1", 42);
const path file2 = env.create_file("file2", 101);
const path file2_sym = env.create_symlink(file2, "file2_sym");
const path dir = env.create_dir("dir");
const path dir_sym = env.create_symlink(dir, "dir_sym");
{
std::error_code ec = GetTestEC();
fs::copy(file1, dir_sym, copy_options::copy_symlinks, ec);
TEST_CHECK(!ec);
const path dest = env.make_env_path("dir/file1");
TEST_CHECK(exists(dest));
TEST_CHECK(!is_symlink(dest));
TEST_CHECK(file_size(dest) == 42);
}
}
TEST_CASE(test_dir_create_symlink)
{
scoped_test_env env;
const path dir = env.create_dir("dir1");
const path dest = env.make_env_path("dne");
{
std::error_code ec = GetTestEC();
fs::copy(dir, dest, copy_options::create_symlinks, ec);
TEST_CHECK(ec == std::make_error_code(std::errc::is_a_directory));
TEST_CHECK(!exists(dest));
TEST_CHECK(!is_symlink(dest));
}
{
std::error_code ec = GetTestEC();
fs::copy(dir, dest, copy_options::create_symlinks|copy_options::recursive, ec);
TEST_CHECK(ec == std::make_error_code(std::errc::is_a_directory));
TEST_CHECK(!exists(dest));
TEST_CHECK(!is_symlink(dest));
}
}
TEST_CASE(test_otherwise_no_effects_clause)
{
scoped_test_env env;
const path dir = env.create_dir("dir1");
{ // skip copy because of directory
const path dest = env.make_env_path("dest1");
std::error_code ec;
fs::copy(dir, dest, CO::directories_only, ec);
TEST_CHECK(!ec);
TEST_CHECK(!exists(dest));
}
}
TEST_SUITE_END()
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